Bubble entrainment from acoustically driven meniscus shape deformations in a piezo-acoustic drop-on-demand inkjet nozzle

Maaike Rump; Tim Segers; Arjan Fraters; Roger Jeurissen; Marc van den Berg; Hans Reinten; Youri de Loore; Herman Wijshoff; Detlef Lohse; Michel Versluis

Bubble entrainment from acoustically driven meniscus shape deformations in a piezo-acoustic drop-on-demand inkjet nozzle

Maaike Rump, Tim Segers, Arjan Fraters, Roger Jeurissen, Marc van den Berg, Hans Reinten, Youri de Loore, Herman Wijshoff, Detlef Lohse, Michel Versluis

Research output: Contribution to conference › Abstract › Academic

Abstract

In piezo acoustic Drop-On-Demand (DOD) inkjet printing a single droplet is produced for each piezo driving pulse. A phenomenon that disturbs the droplet formation process is the entrainment of bubbles in the ink channel. Here, we study bubble entrainment during DOD inkjet printing as a result of meniscus deformations. We show that the fundamental low-frequency acoustic resonance mode of the ink channel (7 kHz) drives the high-amplitude meniscus motion and the corresponding concave meniscus shape. The higher frequency traveling acoustic waves (110 kHz) focus the flow at the concave meniscus which drives the meniscus shape deformations resulting in bubble entrainment. Depending on the piezo driving pulse length, we observe alternating windows of bubble entrainment and no bubble entrainment resulting from the interference of the high frequency acoustic waves that are mainly generated at the rising and falling edges of the piezo driving pulse.

Original language	English
Publication status	Published - 2018
Event	71st Annual Meeting of the APS Division of Fluid Dynamics - Duration: 18 Nov 2018 → 20 Nov 2018

Conference

Conference	71st Annual Meeting of the APS Division of Fluid Dynamics
Period	18/11/18 → 20/11/18

Cite this

@conference{cf9e182804a94b139651ba983036b2aa,

title = "Bubble entrainment from acoustically driven meniscus shape deformations in a piezo-acoustic drop-on-demand inkjet nozzle",

abstract = "In piezo acoustic Drop-On-Demand (DOD) inkjet printing a single droplet is produced for each piezo driving pulse. A phenomenon that disturbs the droplet formation process is the entrainment of bubbles in the ink channel. Here, we study bubble entrainment during DOD inkjet printing as a result of meniscus deformations. We show that the fundamental low-frequency acoustic resonance mode of the ink channel (7 kHz) drives the high-amplitude meniscus motion and the corresponding concave meniscus shape. The higher frequency traveling acoustic waves (110 kHz) focus the flow at the concave meniscus which drives the meniscus shape deformations resulting in bubble entrainment. Depending on the piezo driving pulse length, we observe alternating windows of bubble entrainment and no bubble entrainment resulting from the interference of the high frequency acoustic waves that are mainly generated at the rising and falling edges of the piezo driving pulse.",

author = "Maaike Rump and Tim Segers and Arjan Fraters and Roger Jeurissen and {van den Berg}, Marc and Hans Reinten and {de Loore}, Youri and Herman Wijshoff and Detlef Lohse and Michel Versluis",

year = "2018",

language = "English",

note = "71st Annual Meeting of the APS Division of Fluid Dynamics ; Conference date: 18-11-2018 Through 20-11-2018",

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TY - CONF

T1 - Bubble entrainment from acoustically driven meniscus shape deformations in a piezo-acoustic drop-on-demand inkjet nozzle

AU - Rump, Maaike

AU - Segers, Tim

AU - Fraters, Arjan

AU - Jeurissen, Roger

AU - van den Berg, Marc

AU - Reinten, Hans

AU - de Loore, Youri

AU - Wijshoff, Herman

AU - Lohse, Detlef

AU - Versluis, Michel

PY - 2018

Y1 - 2018

N2 - In piezo acoustic Drop-On-Demand (DOD) inkjet printing a single droplet is produced for each piezo driving pulse. A phenomenon that disturbs the droplet formation process is the entrainment of bubbles in the ink channel. Here, we study bubble entrainment during DOD inkjet printing as a result of meniscus deformations. We show that the fundamental low-frequency acoustic resonance mode of the ink channel (7 kHz) drives the high-amplitude meniscus motion and the corresponding concave meniscus shape. The higher frequency traveling acoustic waves (110 kHz) focus the flow at the concave meniscus which drives the meniscus shape deformations resulting in bubble entrainment. Depending on the piezo driving pulse length, we observe alternating windows of bubble entrainment and no bubble entrainment resulting from the interference of the high frequency acoustic waves that are mainly generated at the rising and falling edges of the piezo driving pulse.

AB - In piezo acoustic Drop-On-Demand (DOD) inkjet printing a single droplet is produced for each piezo driving pulse. A phenomenon that disturbs the droplet formation process is the entrainment of bubbles in the ink channel. Here, we study bubble entrainment during DOD inkjet printing as a result of meniscus deformations. We show that the fundamental low-frequency acoustic resonance mode of the ink channel (7 kHz) drives the high-amplitude meniscus motion and the corresponding concave meniscus shape. The higher frequency traveling acoustic waves (110 kHz) focus the flow at the concave meniscus which drives the meniscus shape deformations resulting in bubble entrainment. Depending on the piezo driving pulse length, we observe alternating windows of bubble entrainment and no bubble entrainment resulting from the interference of the high frequency acoustic waves that are mainly generated at the rising and falling edges of the piezo driving pulse.

M3 - Abstract

T2 - 71st Annual Meeting of the APS Division of Fluid Dynamics

Y2 - 18 November 2018 through 20 November 2018

ER -

Bubble entrainment from acoustically driven meniscus shape deformations in a piezo-acoustic drop-on-demand inkjet nozzle

Abstract

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